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Title:	Evidence of in situ microbial activity and sulphidogenesis in perennially sub-0 °C and hypersaline sediments of a high Arctic permafrost spring
Source:	Extremophiles [1431-0651] Lamarche Gagnon, Guillaume yr:2014

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description	15.	Suess, E. "Marine cold seeps and their manifestations: geological control, biogeochemical criteria and environmental conditions." International journal of earth sciences 103.7 (2014): 1889-1916.
description	16.	Paps, J. "Molecular Phylogeny of Unikonts: New Insights into the Position of Apusomonads and Ancyromonads and the Internal Relationships of Opisthokonts." Protist 164.1 (2013): 2-12.
description	17.	Clark, M. "Antarctic Krill 454 Pyrosequencing Reveals Chaperone and Stress Transcriptome." PLoS ONE 6.1 (2011): 1-.
description	18.	Knoblauch, C. "Effect of temperature on sulphate reduction, growth rate and growth yield in five psychrophilic sulphate-reducing bacteria from Arctic sediments." Environmental microbiology 1.5 (1999): 457-467.
description	19.	BILLINGS, WD. "THE ECOLOGY OF ARCTIC AND ALPINE PLANTS." Biological reviews 43.4 (1968): 481-529.
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